Design, Development & Testing
Arvind Composites has an in-house design and development team that keeps experimenting with newer resin formulations, reinforcement materials/ designs and process improvements, besides working on new products for varied applications. We work with customers for creating long term solutions with optimized designs and evangelize key benefits of using FRP as a replacement of conventional material.
From conceptual model/drawing to final assembly and erection drawings, we provide all sorts of design services through our team of experienced draft-men, designers and structural engineers
Our simulated results have been calibrated with experimental and theoretical data, this has enabled us to extensively incorporate our simulation skills into designing. Our teams are comfortable working with various CAD software such as Solid works 2019, Inventor 2018, AutoCAD 2018, Nastran In-CAD 2018.
Finally, we have extensive in-house facility for physio-mechanical and chemical testing. All our incoming raw materials and production outputs are subjected to multi-stage thorough quality check procedures. Additionally, we also work with customers to make specific jigs and fixtures needed to perform customized testing for specific applications.
Design and development
- CAD services
- 3D modelling
- 2D drafting
- Fabrication drawings
- Surface models
- Assemblies and animations
- CAE services
- Static Analysis
- Buckling Analysis
- 2D Analysis
- Design optimisation
- Design for prototype development
- Reverse engineering
- Design Failure mode and effects analysis (DFMEA)
- Design for manufacture and assembly (DFMA)
- Material sustainability analysis
Testing
| Sr.No. | Test Perameter | UOM | Method Std. | Criteria |
|---|---|---|---|---|
| 1 | Specific Weight | gm/cc | ASTM D792 | 1.72 to 1.94 |
| 2 | 24 HRS Water Absorption | % | ASTM D570 | Max.0.60 |
| 3 | Barcol Hardness | BHU | ASTM D2583 | ≥ 45 |
| 4 | Glass Content | % | ISO 1172 | 60 ± 5 |
| 5 | 3 point bending/modulus of elastisity (full section) | Gpa | EN ISO 13706 | |
| 6 | Longitudinal Tensile Strength | Mpa | ASTM D638 | ≥ 206.8 |
| 7 | Longitudinal Tensile Modulus | Gpa | ASTM D638 | ≥ 17.2 |
| 8 | Transversal Tensile Strength | Mpa | ASTM D638 | ≥ 48.2 |
| 9 | Transversal Tensile Modulus | Gpa | ASTM D638 | ≥ 5.5 |
| 10 | Longitudinal Flexural Strength | Mpa | ASTM D790 | ≥ 206.8 |
| 11 | Longitudinal Flexural Modulus | Gpa | ASTM D790 | ≥ 11 |
| 12 | Transversal Flexural Strength | Mpa | ASTM D790 | ≥ 68.9 |
| 13 | Transversal Flexural Modulus | Gpa | ASTM D790 | ≥ 5.5 |
| 14 | Longitudinal Compression Strength | Mpa | ASTM D695 | ≥ 206.8 |
| 15 | Longitudinal Compression Modulus | Gpa | ASTM D695 | ≥ 17.2 |
| 16 | Transversal Compression Strength | Mpa | ASTM D695 | ≥ 103.4 |
| 17 | Transversal Compression Modulus | Gpa | ASTM D695 | ≥ 6.9 |
| 18 | longitudinal Bearing Strength | Mpa | ASTM D953 | ≥ 206.8 |
| 19 | Transversal Bearing Strength | Mpa | ASTM D953 | ≥ 206.8 |
| 20 | Short beam sheare (ILSS) | Mpa | ASTM D2344 | 31 |
| 21 | FR | V0 | ASTM E-84 class A/B/C | V0 |